Smelting process.



No. 859,132. PATENTED JULY 2, 1907. F. T. SNYDER. SMELTING PROCESS.

APPLICATION FILED JUNE 11. 1906.

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PATENTED JULY 2, 1907.

F. T. SNYDER. SMELTING pnoosss. APPLIOATIDN FILED JUNE 11. 1906.

2 SHEETS-SHEET 2.

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UNITED} STATES PATENT OFFICE.

Fltl'lUlC-ltlCK 'l. SNYDER, Ol OAKlAltK, IlllNOlS, ASSlGNOlt T ELECTRIC METALS COAL IANY, Ol Ul-llOAtlO, lLlllNOlS, A CORPORATION 01 WEST VllttllNlA.

SMELTING PROCESS.

[0 all whom it may concern.

lleit known that I, l nsosmcx T. SNYDER, a Citizen of the United States, residing at Oak Park, in the county of- Cook and State of Illinois, have invented it 5 certain new and useful Improvement in Smelting Processes, of which the following is a full, clear, con cise', gtnd exact description,

My invention relates to a smelting pi'ocess, and is intcndednnore particularly for the treatment of ores conteiningn compound of 21 metal which is volatile at reduction. For ,cxsniple, my process will be espei; chilly-useful in the treatment of zinc ores, and in connection with such ores an object of this invention is to produce speltcr as a. direct product of. the smelting op- 15.cn1.tiun, ,instead of zinc dust.

.lhe present commercial'- method of treating zinc ores involves the distillation of the ore with carbon in rcturts. by means of external heat. This operation .tokesplace in two stages, that is to say, the first stage is:chamcterized by the production of considerable vol-' nines 0f (.-O gas containing little zinc, after which 11 stage occurs in which the 00 gas contains a. relatively large alinount of zinc. In the earlier stage the product is mostly zinc dust, while liquid zincis obtained dur- 25 ing tho' later stage. This method is generally conceded to he a wasteful metallurgiml operation, due to the excessive fuel consumption, the destruction of the rc torts by corrosive slugs, and the loss of zinc. The method, furthermore, is nuts continuous one, and only a small quantity of ore is troiited at a. time in a. retort.

' Attempts have been made to smelt zinc'orcs cloctrically, in a continuous operation, but heretofore it has been diflicult, if not impossible, to produce any considerable'pmportion of the zinc in liquid or compa'ct form as a. direct product of the smelting operation, because the zinc vapor produced has been diluted with such quantitiw of C0 gas and other, impurities that it would not condense in liquid form, but would be 'wholly or in large part in theforui of zinc dust, or so- 40 called blue powder. It has also been proposed to smelt zine ores in a blast furnace under very high pressure, in order to prevent the zinc vaporizing at reduction. This process. however, involves many nic- -chnnical difficulties and the expenditure of grout cn ergy'in forcing the blast into the furnace against the high internal presvnn-e.

In another application, Serial No. 323,211. filed June 25, I906, l have described a process of trusting zinc orc which involves in oming of sepnmtc charges of such ore in successive stages cd'ch charge being subjected first to}: heat sufficient to reduce the zinc and lihentte the (0 gas, while the free surface of the charge from which the C0 is given off is kept sulliciently cool to condense the zinc vapor and prevent its escape,

Patented July 2, 1907.

after which the entire chnrgc is subjected to :1 Ericceeding stage of heat sufficient to fuse the residues to a slag and liberate the metal as vapor, which is thus given off sepumtely in point of time from the CO, so as not to be unduly diluted thereby. In the specific process of this application the material of the charge goes through the successive stages of heating as a result of progressively advapcing the charge toward the source of heat, each given portion of the charge being subjected to the different surges of heat at successive places reached in its advance, end also of course nt the successive intervals of time required for such advance. The zinc vapor which is being continuous:- liberated at the later stages of the advance is therefore collected at a separate place from the G0, which is continuously given off from the free surface of the charge. The 7 0 process of the present application therefore involves certain features of novelty common to both applica tions, which it is proposed to claim broadly herein, namely, the removal of the non-|netallic gaseous prodnets of reduction through :1 free surface of the charge which is maintained below the vaporization temperature of the metal, so as to prevent escape of such metal therewith, and thesubsequcnt complete fusing of the residue and libcnttion of the metal separate, whether in point of time or place, from the gaseous products glVbll'Gll at the preceding stage. lly thus separately condensing the metallic vapor after most of the diluting gas have been removed, it is possible to obtain pructicnlly the entire metallic prod net in coherent liquid form, as spelter, rnther than in the form of dust.

This process will be particularly ndvitntageons in trout ing low grade zinc ores, or ores containing consider-.ible qunntiiics of loud or copper or slag-forming material which cannot be profitably treated by the methods iiowin use. 'l'ho lead as it is reduced may be collected in a body under the bath of molten slag 'and the copper collected in a matte.

In the accompanying drawings 1 hnve illustrated one of lilo several forms of electric furniu'cs which may be employed in carrying out my improved process.

Figure 1 is a vertical scclionul clcvutionofthe furnncc on line l-l of Fig. .l: Fig. 2 is u sectional clevstion on line 2-2 of Fig. 3: Fig. 3 is u scctionnlplun view on line 3---3 of Fig. 'l.

Thc. same letters of rel'm'cncc are used to designate the some parts wherever they are shown.

The furnace shown in he dmwings. consists of a crucible a of-fire brick whi h may be supported in a circular iron casing a, hs'shown; and this crucible is surlnonniml by a. furnace chmnbcn-Hic lower side 1 walls b whereof are made of hollow iron jackets through which a flow of water is maintained. Above the water chambers the side walls of the furnace are mntinued to form a chute or stack which is merely a box to receive the iurnace charge. Through the center of the stack a carbon electrode 0 extends downward to about the level of the top of the crucible a in make contact with the molten slag in the furnace. The bottom of the crucible is filled with molten lead, forming the other electrode. A lead well d leads outward {ruin the bottom oi the crucible to a. point outside the furnace walls, and an electric conductor e; dipping into the molten metal in the lead well d serves to complete the circuit through the furnace from the carbon electrode 0. The slag immediately in the vicinity'of the electrode c is molten, but toward the walls of the furnace it is cooler, and on the walls is congealed to form a lining therefor, this lining being self-renewing, and being kept from melting by the water jackets.

The furnace chamber is preierahly rectangular inform, as shown in 3, so that the end walls will be at -a greater distanceirom the eleiztrode than the side whlls. I also preierhblimaintain a grcateryolume of water fiowingthrough the end. wells; the relult ueing, that there is a greater tendency for the zinc vano tocondense-at. the nds of the furnace than near the sides within the zone of maximum heat. Passages g g are provided underneaththe end walls, communicating with wells h h opening outside of the furnace, these passages serving to drain off and collect the liquid zinc which has condensed inside the fun. nae e.

The furnace charge is iedin at the top, a layer of, carbon being preferably filled in surrounding the electrode and thecharge heaped up in the center, so as to form an incline down which the larger pieces will tend to roll, the result being to have the body of, material in the furnace more porous toward the outside to iacilitatethe pe oi the gaseous-products from the heatedmne toward the walls. By feeding the materials of the charge in this way, the coarser particles toward the outside of the mass, and the comminfltedroducing material being fed toward the ihterioroi the mass, the carbon monoxid produced in the interior tends to escape through the more porous materiaLtoward the-outside, where it will turn to carbr m dioirid, taking. up oxygen from the ore, and also producing additional heat toward the outer limits of the mass.

I will describe my process particularly in its applica tion to the treatment oi zinc-lcad ore. Such ores are preferably first roasted down \o'about 8 per cent in sulfur, and the furnace charge is made 'up obthe roasted ore mixed with mrbon in the form of coke, ur'charcoal, and with fluxes, such as lime and iron (unlcm already present in the ore in the desired quantities) in such proportions as form what is known as a "high temperatore slag, that is, a slag which requires a hightemperatur for its formation. Such-a slag will be high in lime and silica, the/ proportion of silica being 50 per cent or more. This/slag is desirable in the smelting of zinc ores because it will not retain any appreciable quantity of zinc. Considering now the treatment of such a mixture of materials in the form of furnace illustrated in ihe'drawingthechsrge will be fed into the re ctangldar stack. being heaped up around the central electrode 0, so that ingeneml the coarser particles of the charge will roll toward the outside of the mass. Coke is also added around the electrode, as shown. Current being passed through the furnace between the olectr odcic and the conductor a dipping into the lead well, a zone oi maximum heat will be established around the-lower end of the electrode which will reduce the materials of the charge, formin g gas. slag, matte and metallic zinc, which is liberated in the form of vapor. The lead which is produced sinks to the bottom and adds to the body of molten load in the crucible, irorn which it may he ladlcd out from time to time through the lead well d. The slag which is formed is molten in the vicinity of the electrode but around the hollow wells through which the water flows it-js congeal o;

form a lining for said walls. The'flfi gas which isformed as one of the products of thesmehin uneration:

escapes through the ore body to the top. where Lu, may be burned. The conditions are such, howe er, that the escape of the gaseous products is restricted so that a comparatively high pressure is maintained in the cential portion of the ore body. I have iound in practice that under ,such conditions the zinc is condensed in liquid form at the end walls and may be drained off under the walls, where it may be collected, as in'thc wells h. The zinc vapor which is produced; in attempting to escape with the CO gas, becomes condensed in the ore body as the gases leave the central heat zonu before reaching the outer surface. Then as the ore is progressively fed toward the heat zone the condensed zinc, which may be in the form of dust, is again brought into the zone of maximum heat and rcvaporized, the result being that the mixture of gas in the furnace is progressively enriched until the percentage of zinc in the mixture is suiiiciently high so that the zinc condenses in liquid form. This liquid zinc collects in the cooler portions of the ore body, which in the furnace illustrated will be at the end walls, and may be drained pli under said walls through the passages g into the wells h, 'fromwhich it may be ladled. There will be no appreciahle collection of liquid zinc at the walls nearer the electrode, because the zone of high temperature, which is above the boiling point of zinc, extends outward as far as the side walls, and the zinc within this zone is vaporized. f

The. slag, as it accumulates, may be drawn off through a suitable slag tap it. its the body of matte accumulates in the furnace, portions of it will be drawn'oii from time to time, with the slag, and may bcsct'tled out of the slag and recovered.

It will be seen that the procczs above described produces zinc in liquid form, rsthor than as zinc dust,

partly for the same reasons thatliquid zinc is prodilute the zinc vapor which is-givcn off during the second stage. In my process the GO gas is separated from the mixture oi gases at a different stage oi the process in point of uiovement, as well as in point of time. In other words, as the body of ore is progressively fed toward the source of heat, the temperature gradually increases as the movement pmgrcsses, and during the first stage of the movement a considerable proportion of the (30 gas escapcsthrough the, ore body,

but the escape of the zinc-gas therewith is prevented bird temperature of 'ti core body toward tinouter nu'r iiiee islcuchthat thefii nc vapor must be condensed before it reaches the surface. Then as the body of material is progressively fed toward the heal, the zinc 'which become condene'd is again brought into the zone of higher temperature and vaporized. Any escape of zinc in the form of vapor is practically impoeible anil' the mixture of gases in the furnace thereio're becornce finally enrichec'i tosuch an extent that the zinc-he it condenseiil in the cooler portions of -'the' furnace, -will'condense in liquid form; and mai be 'drainedoiT. Broadly therefore, this'invention involves heeti ngiihe, ln ixture to be eiri'elte i in succesdive stn geez finahto a temperature sufficient to reduce .i- 1-. the compound, removingxthe non-metallic gaseous uction at thi 'stege' thr'ough a iree surje such free euriace aporimtion ten perature of "the volatile metal; so as w prevent't'he escapc thereof and'then at aliiiubseduent etage euhjec'ting" residue to an i'ncrehs'ed heat to iuse seine t'olin g end Jibemtwmid metal eswapor-separete [rpm the other A gaeons producte givenofi-at-the-preceding stage. 2 The vent nial'so is char'a iied' the developinentofn hrou gi o ut a limited 10118 ,in-the interior of abodyw ateriaiito be sineltcd withdrawin'g the hon-metal] gaseous prod note at t' siuiaice of 'the tiv 5.11 a'lovveritcm l l dravi'ing the motelea tta -i The pro'cese-bithis invention is-nloo distinguished the p 'of cl cal zinc smelting in the oiiitile pnxluc te o .B

scape-through the packedbody oi material constiti ting: h "'ch di'ge so that; the gases in the smelting hire-rm aii'dr considerzihle' ireenure; which in itself cgnduceetq the productionoi liquid zinc.

iurtherbroad feature of novelty in my pmccus isthat the produciewhich are gaseous at a tempt-mtllihbldif'ljhd "ineltiri point: at zinc are withdrawn oi theehar g e; the products which are notigaaeoue at thehmaximum temperature employcd are withdrawn irem'the lower part of the charge-3' 'hile the zinc in withdrawn from an intermediate pg t oi' th e chaigo in \vl1 ich "tho heel is 'produced internally. r

' Flt-will be apparent that this prnxrous besides being ea'fcinillyfilsefirl in the treatment of zinc ore. Illtly employed iorthe'e neltingoi orcs of othcrmcil 1 his whi ch-iareivolatiie at-tho tempcrnture oi reduction,

" a'nd-tlmtlferteiirfeaturcs-oi'dnvention lie-ruin (llscioumi will be capa'hle'oi nppllcntiontocasw where all the ieqtnres may not he employed, and I wislrmy cluime to-be understood accord'uigly. The apparatus which I 'have' illustrated for carrying-out thc procure; is made the subject-matteroi' itr cparutenppiicai-ion for iicticnz Patent. Serliiil "No. 322,140. iilod June r: 1906. 1 also wish toreicr to my application, Serial i\o. 324,116

filedJune-3Q, li9U(h=in;wl1-ich,are claimed certain l'caun "Whi infedihcioscd .in tho,presentapplication 1 .The process of smelting materials containing a com-- melting. cannot ilk wily reduction. which consists in progressively feeding such mnleriols iownrd u source of heel, continuously removing ihc non-metallic gnseous products from the surface of the churnc, while preventing the escape of the volatile motul therewith, progressively udrunein ihe residue toward the hunt nod thereafter separately removing the voluiile nn-ini at n furlher stuge of the movement.

L. The process of smelting mnterini conlnlnlng a compound of mctui volatile at the temperature of reduction, which-consists in mixing the material with u reducing agent; hunting the mixture internally by electricity and producing volutilized melnl. a nus-eons compound of the reducing agent and i1 fused residue, removing the gnseonn compound through :1 portion of the surfucc of the mixture. cooling another portion of the surface of the mixture to condense the voiutillzed metal to liquid, and withdrawing the iuscd residue from a third portion of the surfuce of the mixture.

3. The process of'smeli'lng material containing zinc which consists in heating in charge containing such inn ierial lnternully by men'ns of electricity. continuously withdrawing from the upper part of the charge the prod ucis which are gaseous ut u teinpei'uture below thi: molting point of zinc, withdrawing from the lower part oi? the charge the products which are not gaseous at the tempcrailli'e of the heating, and withdrawing the zinc from an intermediate part of the charge.

i. The process of smelting orc.contnining Zine which consists in formhu, n cluirge Irv mixing the ore with coke and lime, heating the charge lnternuiiy hy electricity and producing: zinc, cut-hon inonmiid and siug nliowini: the curllou monoxid to escape through the top of the charge, uilowing the '/iuc to escape through the sides oi the charge and allowing the slug io escape from the hottomof tho 5. 'iiu: process of smelting mntcrinlscontaining zinc "which consists in progressively moving a churge'conialuing'xurh mulcrinl towurd'n' sourcc'oi' llent, mintinuouely removing the non-|iu:i.-iilic gaseous products at one place in such mololucnt, continuing the movemerit nnd removing ihc' Zinc at u subsequent pincc, further continuing the nuwomoht :ind fusing the residues nt :1 third place in such movement. 7

-ti. The process of smelting ore coiitiii'nlng zinc which consists in lnlorunlly limiting the ore mixed \vilh cur-hon u-n'il time by means of eleciricil v, pl'ulilivilig gaseous nlnc while nn jntnining in the ore mixture :1 pressure substan- Iiniiyilhove atmospheric pressure, removing: the non-metablic gaseous products of reduction through n free surfacioi the UH m-ixiurc, while nulintniuing'i-mld l'rcc mu'i'iu-o below the vumlrlzat'ion tcmpornlurc: of zinc. and fitilillllltiy withdrawing undchndcnsing iluvolniiilzcd zinc.

7. 'lho conLinuous process oi .ironting zinc orc which consists in mixing said on: with carbon unii iluxcn. fried in; :1 charge of such mixture downward in n cuiumn, muiuininlug :l temperature sniiicii-ni for reduction in the lower portlon oi sold column. withdrawing; Lil ihii -metuilic gaseous products from the cool uppcr suriuc'c of mild column, Losing the residues oi the hotlom. and \villulrmriug ihe Zinc :11. the side of lhc column uiulcr ii pressurc ,L'l'tllit'l than at mospiuu ic' pressure.

zinc oxid which consisis in mixing such oro with coke. churning the mixture inio :i forum-c honlcd inlcrnuiiy h clog-iricliy, removing the curllon lll()il Xl(i ,cos through the top of the charge, condeuxiug the zinc to liquid in ihe furnm-c hy cooling the walls oi sold n-mice, [using the rcsi- .duo of the ore and within-owing the liquid zinc and the fused residue through. lilo wnils oi the furnace.

i The process oi ireuting lend-zinc soliid ores which consists .in suhjecting the ore lo an oxidizing roost, chnrgin; the furnace with ronsiod ore and wii'ircnrhon rind ililXiN uduplcd lo form n sing all; a. temperature well uhove the iioiiiup; point oi zinc, electrically developing: -heni: iu-n limited zone in iliciurnuee, suilicient to reduce the charge and keep theislug fluid, producing in the-furnace slug; matte; metallic, lend nndu mixture of zinc and curbunic mild, allowing .the carbonic oxid a restricted escape while condensing the zinc mixed therewith, progresslvely returning said condensed zinc to the zone oi. maxiins mum hen: and revaporizlng said zinc. maintaining a flow of cooling llutd around the furnace wall, condcnsiug the zinc vapor thereat in liquid form, and drawing the liquid zinc from said walls and collecting the some.

it]. The process oi. treating zinc ore which consists in feeding such ore with reducing material toward a source of heat: adapted to reduce and volatilize the zinc, allowing the carbonic oxid gas to escape through the ore body while maintaining said are suliiclent'iy cool to condense the zinc gas, progressively feeding the condensed zinc with the ore toward the source of heat and revoluiilizing said zinc, whereby the zinc gases inside the furnace are made sailiciently rlcl in zinc to allow the zinc vapor to condense an a liquid, maintaining a iiow of cooling. tluid around the furnace to condense the zinc vapor at the walls thereof, and drawing or the liquid zinc from said walls and collecting the saute,

11. The process or smelting umtcrinls containing a compound of a mcrvil which is volatile ntthe temperature of re duction. which consists in developing a reducing. tcmpcrature throughout a limited zone in the interior of a body oi such materials, withdrawing the non metallic gaseous products at the outcr surface of the body, maintaining a lower temperature in the body of material hear such outer surface so as to condense the metallic vapors which are mixed with said nonunetullic goers, before said vapors can escape. progressively feeding the outer material toward the zone of maximum heat, and withdrawing the metallic vapor from said hotter zone and condensing the same in liquid form.

12. The herein described process of zinc smelting which consists in subjecting a mixture containing a compound of zlnc anduwidclng material to sutiiclent heat to reduce-thezlnc L'UmpOUDd 'COHGQD-HiUK the gaseous zinc pro-' ducud on an additional portion of the mixture and removing the other gaseous products of reduction. then subjecb ing said additional portion of 'the mixture withv its coir densed zinc to a reducing heat, whereby a gnseous mixture higher in zinc than from the first reduction is obtained.

13. The process of smelting ores containing zinc which consists in mixing the are with reducing materials, heating the mixtum *3 reduce and volatilize the zinc, condensing the gaseous aim: at the earthy portions oi the ore. thcn smelting said earthy portions to form a slug. thereby rcvulatlilzing the zinc and condensing the revolatllizcd zinc.

14. 'lhc contlnuous proccssoi. lrcutlng zine ore which consists in feeding said ore with reducing material toward a source of heat in the absence of air. drawing ol'! the carbonic oxid gas through the ore body at a distance from the source of heat, progressively advancing the residue substantially freed from said carbonic oxld toward the place of greater heat, there volatilizing the zinc, condensing the zinc vapor as a liquid at the wall of the Iurnace and drainlag of! the liquid zinc.

.15. The continuous proccss of trcatingzinc ore which consists in electrically smelting said ore with carbon on a slug bath in a clone vessel, producing, additional slag and a gaseous mixture of zinc vapor and carbonic oxid, malntainlng in the sing a temperature considerably above the 'boliing-pointpt zinc, removing the carbon nionuxld gas through an opening maintained below the condensation temperature oi zine, whereby the escape of zinc with the carbonic oxid is prevented, and condensing the zinc vapor as a liquid in a portion of the furnace protected from the heat.

iii. The process of treating oxidized zinc orc which con slain in mixing said ore with carbon and liuxeu adapicd to form a slug containing ilfty per cent or more of silica, smelting the mixture elwtricall'y in a close-'vcssei first rcduring and. voial'illzing the zinc and thereafter-fusing the residues to form the higlr-uilica sing, the vethigh toma-ruture. required for the formation or such a slag at a given place in the ore body insuring the thorough reduction of'the neighboring zinc oxld before it can he takcu up by the slug; whereby the yield of metallic zinc is increased.

i7. 'lho process of smelll'ng material containing a. 'compound of mine which consists in mixing such material with reducing and iiuxing elements, heating the mixture to a smelting tenu'mrature'hy means of electricity and remov' ing from the furnncc the rcsltlling non-metallic gaseous products the zinc and the slag by means or separate outlets. the slug outlet being maintained at B. temperature above Ihe volatiiizalion temperature o zinc, the outlet for the non-metallic gaseous products being maintained at a temperature below the freezing point of zinc and the zinc outlet being maintained at a temperature between the freezing and volulil' atlnn temperatures oi zine.

its. 'lhe conlluuous-process of treating zinc ore which consis in electrically Silifiiillgds'flid ore with carbon in a close i'csscl. producing a slag and a mixture at zinc vapor and carbonic oxid gas; allowing the carbonic oxid gas to escape through the ore body while maintaining therein a tcm au-ut'urc which will permit condensation oi! the zinc vapor in the mixture. progressively feeding said ore with the condensed zinc toward the source of heat, where therein is sutiicientiv rich 'in vaporized zinc to alidw tll' zinc to condense as a liquid. andZ-oliccting the liquid zinc in a cooler portion a: the furiiace chamber.

iii. The continuous pro ess of treating oxidized zinc ore, which consists in mixing said ore with carbon and fluxes adapted its form a siaghigh in silica, feeding a charge of such mixture downward in a column upon a slag bath in a closed furnace, electrically maintaining in the slag a tem pcrulure abovc the lmiling point of zinc, removing the nonlnctaliic gaseous products from the top of the charge while maintaining the upper portion of said charge sufliciently cool to condcnsc any zinc vapor therein, progressively udvancing the residues containing the zinc and fusing them on said slag bath, liberating the zinc in said residues as vapor, condensing said zinc vapor as a liquid at the walls of the furnace under a pressure considerably greater titan atmospheric pr sure, and draining oil the liquid zinc.

20. The [)l'( or smelting material containing a. compound of a metal volatile or reduction. which consists in mixing said material with a reducing agent and with iluxes, heating a charge of such mixture in successive stages. first subjecting said mixture to a heat suiilcient to reduce said compound. rcmoving the non-metallic gaseous products of reduction at this stage through a tree surface of the charge while maintaining said free surface below the vaporization tcmperatuic of the metal, then at a subsequent s .g! subjecting ihc residue to an increased heat saith-lent to fuse the same to a slag and vaporize said metal, and separately collecting the vaporized metal libcraik-d at such subsequent stage.

'i. The proccsh of'lrca in; material contuining'compounds of a metal which is volaiilc at reduction, which coilsisis in mixing the material with a reducing 'agent, hcuting a charge of such mixture to reduce the compound. while maintaining a free surface of said charge below the vaporization temperature of the metal. then fusing the residue of the charge and heating the resulting sing to re lca c such comb-used u did.

The process oi smelting material containing a compound ol a iucinl which it} volatile at the temperature of reduction. which consists in feeding a charge of such. material mixed with reducing agents. toward a source 0! heat, rcmorbra the gaseous compounds of the reducin agent from the free snrluct! of the charge, maintaining said frcc uuri'ucc :utilicicntly cool to condense the volatile metal within the charge and separate it from said gaseous' compounds, progressively advancing: lhe residue of the charge lo a place of greater heat. there liberating said volatile metal as a gas. largely freed from diluting gases, and separately removing such vointilc'mctai.

The continuous process of smelting ore containing zinc oxld which cut ccolls met all. ch lag the mixture into a furnace heated internally by clcci.|icit t'. removing carbon monoxid gas through the charge. condensing the gaseous zinc on theintl-rlor walls of illc furnace, and removing the resulting cohcrcnl zinc lhrough an aperture in [he furnace.

:14 A proccss ol' ircating ores in which the crushed ore is fed toward a source of boat in nu clcclrlc ful'mlcc, the roarscr pnrlich-s of ore being i'cd toward the outside of the mass, and comminulud' reducing material being fed tos. in mixing the are with curbonnward the interior of the mass, whereby the carbon monoxid produced in the interior tends to escape through the more porous material toward the outside, where it will burn to'carbon dloxid, takingup oxygen from the ore and re duclng the same, and producing additional heat toward the outside of the mass.

-25. A process of smelting ores of zinc and similar vola tile metsls which consists in heating a charge or such ore with a reducing agent, producing vaporized metal and a gaseous compound of the reducing agent; allowing said gaseous compound to escape while retaining and condensing said vaporized metal in the furnace, and removing said condensed metal through a separate opening.

26. A process of smelting ores of zinc and similar volatile meta'ls'which consists in heating such ore witha reducing agent, producing vaporized metal and a. gaseous compound 0! the reducing agent, separating said gaseous compound from the metallic product in the reducing Iurmace, and separately removing said compound through one opening and the metallic product through another opening. t

27. The process of treating ores of zinc and similar vol utile metals which consists inheating the ore with reducing and fluxiug agents to a temperature sufficient to partially reduce the ore and drive off a large proportion of the gaseous product of the reducing agent while maintaining the free surface of the charge at a temperature sufficiently low to prevent the escape of any substantial amount of metallic vapor, and subsequently heating the residues to a degree sufficient to liberate the metal, whereby the metal may he recovered in coherent form.

In witness whereof, I, hereunto subscribe my name this seventh. day oi. June, A. D., 1906.

FREDERICK. 'l. SNYDER.

Witnesses:

D. C. TANNER, ALFRED H. Moons. 

